Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
The invention discloses an anti-corrosion building steel structure. The structure comprises a first steel beam and a second steel beam. A first connecting hole is formed in the first steel beam. A second connecting hole is formed in the second steel beam. The first connecting hole and the second connecting hole are assembled and connected through a connecting assembly. The anti-corrosion buildingsteel structure is characterized in that the connecting assembly comprises a bolt, an insulating spacer, a first insulating gasket, a second insulating gasket and a cap nut; a screw part of the bolt sequentially passes through the first connecting hole and the second connecting hole and then is in threaded connection with the cap nut; the insulating spacer is disposed in the gap formed between thescrew part of the bolt and the first and second connecting holes; the first insulating gasket is arranged on the screw part of the bolt in a sleeving manner and disposed between the head portion of the bolt and the first steel beam; and the second insulating gasket is arranged on the screw part of the bolt in a sleeving manner and disposed between the cap nut and the second steel beam. Gap corrosion of the building steel structure can be greatly reduced or avoided so as to prolong the service life of a building.
本发明公开了一种防腐建筑钢结构,包括第一钢梁和第二钢梁,该第一钢梁上设有第一连接孔,该第二钢梁上设有第二连接孔,该第一连接孔和第二连接孔之间通过连接组件装配连接,其特征在于:所述连接组件包括螺栓、绝缘隔套、第一绝缘垫圈、第二绝缘垫圈和盖形螺母;该螺栓的螺杆部依次穿过第一连接孔和第二连接孔后与该盖形螺母螺纹连接;该绝缘隔套衬设于由该螺栓的螺杆部与第一连接孔和第二连接孔之间所隔成的间隙内;该第一绝缘垫圈套设于该螺栓的螺杆部上且垫设于该螺栓的头部与该第一钢梁之间;该第二绝缘垫圈套设于该螺栓的螺杆部上且垫设于该盖形螺母与该第二钢梁之间。本发明可大大减少或避免建筑钢结构的缝隙腐蚀,以延长建筑寿命。
The invention discloses an anti-corrosion building steel structure. The structure comprises a first steel beam and a second steel beam. A first connecting hole is formed in the first steel beam. A second connecting hole is formed in the second steel beam. The first connecting hole and the second connecting hole are assembled and connected through a connecting assembly. The anti-corrosion buildingsteel structure is characterized in that the connecting assembly comprises a bolt, an insulating spacer, a first insulating gasket, a second insulating gasket and a cap nut; a screw part of the bolt sequentially passes through the first connecting hole and the second connecting hole and then is in threaded connection with the cap nut; the insulating spacer is disposed in the gap formed between thescrew part of the bolt and the first and second connecting holes; the first insulating gasket is arranged on the screw part of the bolt in a sleeving manner and disposed between the head portion of the bolt and the first steel beam; and the second insulating gasket is arranged on the screw part of the bolt in a sleeving manner and disposed between the cap nut and the second steel beam. Gap corrosion of the building steel structure can be greatly reduced or avoided so as to prolong the service life of a building.
本发明公开了一种防腐建筑钢结构,包括第一钢梁和第二钢梁,该第一钢梁上设有第一连接孔,该第二钢梁上设有第二连接孔,该第一连接孔和第二连接孔之间通过连接组件装配连接,其特征在于:所述连接组件包括螺栓、绝缘隔套、第一绝缘垫圈、第二绝缘垫圈和盖形螺母;该螺栓的螺杆部依次穿过第一连接孔和第二连接孔后与该盖形螺母螺纹连接;该绝缘隔套衬设于由该螺栓的螺杆部与第一连接孔和第二连接孔之间所隔成的间隙内;该第一绝缘垫圈套设于该螺栓的螺杆部上且垫设于该螺栓的头部与该第一钢梁之间;该第二绝缘垫圈套设于该螺栓的螺杆部上且垫设于该盖形螺母与该第二钢梁之间。本发明可大大减少或避免建筑钢结构的缝隙腐蚀,以延长建筑寿命。
Damp-proof and anti-corrosion fabricated steel building structure
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